NO127460B - - Google Patents

Description

Vibrator for basic package device.

The invention relates to a vibrator for basic packaging devices.

When dimensioning new grain packing devices, it is necessary, in order to achieve optimal packing results, with time-consuming and expensive trials, and because of these difficulties one must limit oneself to a few frequency points. If one were to achieve an optimal frequency for the vibrator through such experiments, then this would only be valid for very specific basic conditions. If the same vibrator were to be used in other basic conditions or on bulk goods with regard to deviating grain size, water content, etc., then a different frequency will come into consideration as the optimal one. This new frequency would again require expensive trials, and for this reason one mostly works in practice with frequencies that do not meet the optimal conditions.

The best-known vibrators have constant frequency at constant centrifugal force. As explained above, such a vibrator can achieve optimal results in different working conditions. However, the frequency can in all circumstances be regulated by quadratic reduction or increase of the centrifugal force. However, this regulation option is only of little practical interest, as the frequency change is completely unpredictable with regard to the ground to be packed or the bulk goods to be packed and then the elements in the vibrator and/or the basic packing device may be exposed to a load that exceeds the permitted value with increasing frequency and thus a quadratic increase of the centrifugal force.

There are also known vibrators in which part of the mass can be adjusted from one position to another. However, one only achieves a choice between two frequency options so that a desired usability of the basic package device cannot be achieved with this arrangement.

With known stepless regulation, both the number of revolutions and the distance on the eccentric mass are changed. This double regulation is very complicated and places great demands on the operator and has not found any particular application in practice.

From US patent no. 3»059*483 a vibrator is known which can be used, among other things, for packing the soil. The device essentially consists of a rotating cylinder with a pivot axis running across the longitudinal axis and a piston which, with the help of a hydraulic device, can be adjusted into the cylinder against the spring force from a spring. The cylinder, the piston, the spring and the hydraulic fluid in the cylinder form different eccentric masses, of which the position of the center of gravity of the cylinder to the axis of rotation is constant, while the center of gravity distances of the piston, the spring and the hydraulic fluid and also their masses are variable. This means that the working range for the vibrator, i.e. selection of the number of revolutions for the cylinder is greatly restricted, as even a displacement of the piston mass center of gravity in the axis of rotation for the vibrator causes a growing eccentricity for the cylinder, the spring and the hydraulic fluid with the square of the speed. For basic package devices, this is a disadvantage, as you have to wait

of the modern foundation packing facility that you must be able to pack both deeper-lying foundations and the upper part of the ground. In terms of experience, you can

use a lower frequency and large force for packing deeper layers and a high frequency and small force for packing the upper layer. That is, the power and frequency when packing the ground is inversely proportional. With the known vibrator, such adaptation is only possible

happen at low speeds and the setting options are insufficient to be able to adapt to the requirements of the time.

A device according to Austrian patent no. 185,561 is known in which a movable eccentric rests against a fixed eccentric and forms a swinging system. Here, any change in the number of revolutions, i.e. any change in the eccentric, causes a fluctuation of the movable eccentric weight which is included in the force produced by the vibrator. When laying asphalt pavements in a soft state, the force fluctuations cause a distinctly different packing of the surface.

The invention is to provide a vibrator for basic packaging devices where, in a certain range of the revolutions, an approximately constant centrifugal force can be maintained. This results in a quadratic reduction of the amplitude with increasing rpm.

According to the invention, this is achieved by a vibrator for basic packaging devices which consists of a rotating shaft, an eccentric mass fixed to this shaft and an eccentric weight movable in the radial direction of the rotating shaft and placed on it and spring-loaded, and the characteristic feature of the invention is that the center of gravity of the mass for the movable eccentric weight lies diametrically on the axle in relation to the fixed eccentric weight. According to a preferred embodiment, the vibrator is provided with an eccentric weight which is placed in a housing fixed to the rotating shaft and an eccentric weight which is movably guided in the housing, the housing being provided with a lid and the movable eccentric weight resting against the housing over a spring, and the characteristic feature of this design is that the spring is arranged between the lid of the housing and the movable eccentric weight.

The vibrator according to the invention differs from the previously known primarily in that the eccentric, i.e. driving force for the vibrator can be reduced to 0. This is then achieved by the aforementioned two eccentric weights, one of which is firmly connected to the rotating shaft and where the second eccentric weight is placed diametrically opposite the fixed weight and movable in relation to the axis of rotation and connected to the axis by means of a spring element. In comparison with the previously known devices, the movable weight does not increase the eccentric effect of the fixed eccentric weight, on the contrary, it reduces its effect. This preferably occurs at increasing revolutions inversely proportional to the revolutions, with a proportionality factor desirable depending on the choice of spring elements. The setting is completely automatic. You can therefore use one and the same vibrator to pack both the deeper ground and the upper part of the ground by using a lower frequency and high force for packing the deeper layers and a high frequency and low force for packing the upper layer.

In the following, the invention will be explained in more detail with the help of the drawing which shows an exemplary embodiment of the invention.

On the eccentric axis 1, with the help of the wedge 2, an eccentric mass 3 is placed, which cannot be changed either with respect to the angular position in relation to the axis 1 or the distance from it. The wall 4 of the housing placed around the axle 1 is in one piece with the eccentric, the mass 3 In the design example. 5 is the lid of the house. In an annular groove 6' on the lid 5> which is suitably sealed against the flange 7 On the wall 4> a coil spring 8 is supported and thus secured against lateral displacement. The shape of the housing is suitably round, in a cross-section which lies parallel to the shaft 1 and perpendicular to the longitudinal central axis of the housing, as a fit is thus easily achieved between the inner wall of the cylindrical housing 4 and the piston! Arm-shaped eccentric mass 9, which can be moved radially in relation to the shaft 1, the eccentric mass Q, like the cover 5, has e1; ring groove 10 for receiving the other end of the coil spring 8. Through the bore 11, the oil filling is above the movable mass 9 in connection with the oil filling below it.

With the aid of a gruinipacking device according to the invention, a rotation control has been achieved within certain limits with approximately equal centrifugal force. The oil used for the damping also serves as a lubricant between the piston-shaped eccentric mass 11 and the inner wall of the cylindrical housing 4"

After the cover 5 has been removed, the eccentric mass 9 and possibly also the spring 8 can be easily replaced. In this way, one can

easy way to repair the basic package device and by installing springs with a different spring effect or smaller resp. larger oscillating masses, the characteristics of the basic package device can be changed. The spring elements can have progressive or degressive characteristics. Instead of coil springs, plate springs or the spring elements can also be used

can have other forms, e.g. rubber springs or pneumatic springs.

Claims (2)

1. Vibrator for basic packaging devices, consisting of a rotating shaft, an eccentric mass fixed to this shaft and a radially movable eccentric weight attached to the rotating shaft and spring-loaded on it, characterized in that the mass center of gravity of the movable eccentric weight (9) is located diametrically on the axle in relation to the fixed eccentric weight (3)" 2. Vibrator according to claim 1, with an eccentric weight which is placed in a housing fixed to the rotating shaft and an eccentric weight which is movably guided in the housing, the housing being provided with a cover and the movable eccentric weight resting against the housing via a spring , characterized in that the spring (8) is arranged between the housing lid (5) and the movable eccentric weight (9)"